TY - JOUR
T1 - Identification of a transient Sox5 expressing progenitor population in the neonatal ventral forebrain by a novel cis-regulatory element
AU - Hao, Hailing
AU - Li, Ying
AU - Tzatzalos, Evangeline
AU - Gilbert, Jordana
AU - Zala, Dhara
AU - Bhaumik, Mantu
AU - Cai, Li
N1 - Funding Information:
The authors would like to thank Dr. Connie Cepko for a reporter construct of plasmid DNA pCAG-GFP, Dr. Charles Stiles for Olig2 antibody, Chris Ricupero in Dr. Ronald Hart׳s lab for helping with ChIP experiments, and the members of the Cai lab for helpful discussion and proof-reading. We would like to acknowledge the assistance of the Transgenic and Knockout Mouse Shared Resource of the Rutgers Cancer Institute of New Jersey -NCI/CCSG (P30CA072720) and Robert Wood Johnson Foundation support of the Child Health Institute of New Jersey. This work was supported in part by the grant EY018738 from the National Institute of Health ; the New Jersey Commission on Spinal Cord Research Grants ( 08-3074-SCR-E-0 and 10A-003-SCR1 ) and the Busch Biomedical Research Awards ( 6-49121 ).
PY - 2014/9/1
Y1 - 2014/9/1
N2 - Precise control of lineage-specific gene expression in the neural stem/progenitor cells is crucial for generation of the diversity of neuronal and glial cell types in the central nervous system (CNS). The mechanism underlying such gene regulation, however, is not fully elucidated. Here, we report that a 377. bp evolutionarily conserved DNA fragment (CR5), located approximately 32. kbp upstream of Olig2 transcription start site, acts as a cis-regulator for gene expression in the development of the neonatal forebrain. CR5 is active in a time-specific and brain region-restricted manner. CR5 activity is not detected in the embryonic stage, but it is exclusively in a subset of Sox5+ cells in the neonatal ventral forebrain. Furthermore, we show that Sox5 binding motif in CR5 is important for this cell-specific gene regulatory activity; mutation of Sox5 binding motif in CR5 alters reporter gene expression with different cellular composition. Together, our study provides new insights into the regulation of cell-specific gene expression during CNS development.
AB - Precise control of lineage-specific gene expression in the neural stem/progenitor cells is crucial for generation of the diversity of neuronal and glial cell types in the central nervous system (CNS). The mechanism underlying such gene regulation, however, is not fully elucidated. Here, we report that a 377. bp evolutionarily conserved DNA fragment (CR5), located approximately 32. kbp upstream of Olig2 transcription start site, acts as a cis-regulator for gene expression in the development of the neonatal forebrain. CR5 is active in a time-specific and brain region-restricted manner. CR5 activity is not detected in the embryonic stage, but it is exclusively in a subset of Sox5+ cells in the neonatal ventral forebrain. Furthermore, we show that Sox5 binding motif in CR5 is important for this cell-specific gene regulatory activity; mutation of Sox5 binding motif in CR5 alters reporter gene expression with different cellular composition. Together, our study provides new insights into the regulation of cell-specific gene expression during CNS development.
KW - Cis-element
KW - Gene regulation
KW - Neural stem/progenitor cells
KW - Olig2
KW - Sox5
KW - Trans-acting factor
UR - https://www.scopus.com/pages/publications/84906101925
UR - https://www.scopus.com/pages/publications/84906101925#tab=citedBy
U2 - 10.1016/j.ydbio.2014.06.010
DO - 10.1016/j.ydbio.2014.06.010
M3 - Article
C2 - 24954155
AN - SCOPUS:84906101925
SN - 0012-1606
VL - 393
SP - 183
EP - 193
JO - Developmental Biology
JF - Developmental Biology
IS - 1
ER -